DE1766974A1 - Breathing tube for pneumotachograph - Google Patents

Description

Breathing tube for pneumotachographs

The invention relates to a breathing tube belonging to a device for pulmonary function examinations, consisting of a mouthpiece to be inserted into the mouth of the test subject, a tube part that is attached to the mouthpiece and widens in a funnel-like manner over a short length, and the tubular measuring chamber adjoining it with a Length and an inner diameter of up to about 60 mm and with a measuring tube system according to Fleisch (A. Fleisoh ^H Die Pneumotachographie ", printed in the handbook of biological working methods from Abderhalden, supplement to Dept. V, part 4, functions of the circulatory and Respiratory apparatus, Verlag Urban ft Schwarzenberg, Berlin, Vienna 1932, pp. 849, 850; as well as A. Fleisch "Le Pneumotaohographe" in "HeIv. Physiol. Acta ⁿ 14 (1956) p. 363 368), consisting of one to some Centimeters long bundles of up to 3000 stiff narrow tubes, each with a lumen of preferably 0.8 ram, filling the cross-section of the tubular measuring chamber, of which only those located on the outside of the bundle are used as measuring tubes and for this purpose, e.g. via a ring channel surrounding the bundle, are connected to two pressure take-offs for measuring the pressure drop, spaced apart in the longitudinal direction of the measuring tubes and delimiting the actual measuring path. '

Through said top first work of Fleisoh it has long been known that, particularly with forced breathing dit into the tachograph exspirlerte air a highly turbulent flow has di · is due to the rapid Quersohnitteänderungen mens ohlionen airways and the wrong results ha can ben. In order to avoid such turbulence at the pressure reduction tube parts, it has already been suggested in the aforementioned literature reference that the first pressure reduction point, seen from the mouthpiece, should only be provided near a certain length of the tube, i.e. the measuring tube.

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stretch a stretch of tubes to calm the turbulent flow upstream. Of course, according to the knowledge gained in fluid technology (magazine "Draht", Volume 11, I960, No. δ, p. 1) to make the turbulent flow more uniform also use wire screens (rectifiers) (see also book "Taxes and rules "by Göldner and Müller, Urania Verlag, Leipzig, 1967, pp. 132, 133).

For a breathing tube with a sloh on a short length, funnel-like expanding tube part in the expiratory direction in front of the measuring chamber and with a measuring tube system according to Pleisch with a Calming section in the measuring tube in front of the measuring section, however, revealed further measuring errors during detailed investigations, which are obviously due to the fact that the Expiratory air in the short funnel part does not sufficiently follow the wall of the funnel. In the context of the invention, therefore, the attachment of a wire screen with a sufficiently high flow resistance directly on the large funnel opening (see the aforementioned magazine "Draht") was provided and thus enforced the flow follows the course of the wall of the funnel without breaking off. This made it possible to ensure that the sea tubes lying on the edge of the bundle were adequately supplied with the expiratory air to be measured be applied.

Investigations with one of the aforementioned types with regard to the Measurement of the expiratory air, however, improved breathing tube showed a strong one, especially with forced breathing and breaths Running away of the center line of the tidal volume curve recorded on a recording strip in the expiratory direction, i.e. the The center line ran obliquely to the edges of the recording strip, which makes reading physiological oroses from the curve considerably difficult. It even happened that the respiratory volume curve to be recorded partly wandered beyond one edge of the recording strip and thus became unusable for the evaluation. The causes of this deficiency were recognized as being on the one hand - conditional due to the different shape of the breath tube on the mouthpiece and on the suction side - there is a different guidance of the inhalation and expiration air in the breathing tube, which means that there is a slight increase in the inspiration compared to the expiration

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small flow of breath gets into the measuring tube, and that on the other hand the inspiratory signal is always slightly smaller than the expiratory signal because both the composition and the Volume as well as the temperature of the inspiratory and expiratory air are different.

According to the invention, this deficiency is eliminated by a guide body for the inhalation air, which removes the measuring chamber on the suction side (inspiratory inlet) at a distance from the measuring tube system, and which is provided with an annular slot in the annular area of the measuring tubes of the tube system according to Fleisch connects the space between the tube system and the guide body with the M Auseenluft. The ring slot in the guide body in the area of the measuring tube ensures that a larger proportion of the inspiratory air reaches the measuring tube than is the case with the known breathing tubes. With a suitable choice or setting of the width of the ring slot, the inspiratory signal can be brought to the same value as the expiratory signal and it is easy to increase the proportion of the inspiratory air compared to the proportion of the expiratory air to the extent that one can also with a lower temperature (room temperature) of the inspired air than that of the expired air receives equally strong inspiration and expiration signals, so that in this case, too, the tidal volume curve does not migrate to the edge of the registration strip. I.

Although a disc closed except for the ring slot as Guide body is suitable, it is advisable to use a bundle of stiff, narrow tubes surrounded by the ring base as the guide body with a To use lumen corresponding to the tubes of the measuring system. By the tube Cheney β tem in the central part of the guide body is reached, that the guide body only slightly increases the breathing resistance of the breathing tube.

Further details of the invention are given below with reference to a in the figures illustrated embodiment of the subject matter of the invention «explained.

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Fig. 1 illustrates a breathing tube naoh the invention for Part in view, partly in longitudinal section; Pig. 2 shows a plan view of the guide body according to the invention which closes the pipe.

The breathing tube according to the figures comprises the mouthpiece 1 made of woven rubber, the tube part 2, which widens in a funnel-like manner over a short length, with its small opening inserted into the mouthpiece with the saliva collecting vessel 3 attached to it on the outside, which is inserted into the large opening of the tube part 2 with a snug fit Measuring chamber pipe part 4 with the Mess-Röhrohensystern according to Fleisch and the two pressure tapping nozzles 6 and 7 that delimit the actual measuring section # the pipe part 8 pushed over the outer end of the pipe part 4 with a snug fit with the outer peing thread 9, and finally the pipe part 8 screwed onto the pipe part 8 The cap 10 closing off the breathing tube with the centrally inserted oas analysis socket 11.

The mouth-side opening 12 of the mouthpiece is of the thin-walled approximately oval in plan view, behind the lips of the test subject Surrounding flange 13 to be inserted, on the side of the opening 12 Approaches 14, 15 to be taken between the rows of teeth of the test person are set.

Of the metal pipe parts 2, 4 and 8 are the parts 2 and 8 provided at their ends facing one another with the annular outer flanges 16, 17, in the inner grooves of which the Oummi existing sealing rings 18 and 19 are used.

The front threaded part of the saliva collecting vessel 3 is screwed into the tube of the tube part 2 surrounding the opening 20 in the funnel wall. Duron the opening 20 of the tubular part 2 during Hesevorganga penetrated saliva, which can cause changes in airflow and falsification of the measurement result in the Spelohelauffanggeftta "is directed into the funnel part naoh Absohrauben from the tubular part 2 leloht cleaned who * the can.

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Immediately at the large funnel opening of the pipe section 2 is inserted into this the metal ring 22 on which the wire screen 25 is held and which serves as a stop for the use of the measuring chamber tube part 4. This wire screen is used to force the Explanation air slides along the inner wall of the funnel without demolish.

On the outside of the measuring chamber tube part 4 are at a distance from one another the annular flanges 24, 25 placed airtight on their Inner surfaces with the annular grooves 26, 27 are provided. These ring grooves cover bores - including the illustrated bores 28 to 31 in the wall of the pipe part 4, which f | distributed over the circumference of the pipe at the beginning and end of the actual Pass the measuring section lying in two ring zones through the wall of the pipe part 4, the interior of one is above these bores larger number of tubes lying on the outside of the measuring tube system 5 - the actual measuring tubes - with the annular grooves 26, 27 and thus with the pressure tapping connection 6 and 7 in connection. In the free space between the outer ring flanges 24, 25 is below the annular cover 32 of the electrical Arranged heater 33, to which the electrical connection line 3 ^ leads.

From the Pig. 1 1st seen that in the measuring-tube system is connected upstream on both sides of a tube section 5 of the actual Meßstreoke g, which lies between the pressure reduction fitting 6 and 7. FIG. These upstream pipe sections serve as straightening sections for any turbulence in the expiratory or inspiratory air.

The tube part 8 is provided with the conical inner surface 35 at its end facing away from the annular flange 17. Together with the cap 10 screwed onto the Auesen thread 9, it forms the guide body according to the invention. The cap 10 has the outer ring 36 with an inner thread and the inner ring 37. The rings 36 and 37 are connected to one another by the Krtuzstege 38 and 39. The outer surface 40 of the

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The inner ring JJ is also conical and, together with the conical surface 35 of the pipe part δ, delimits the annular slot 41, through which a substantial part of the inspiratory air can be sucked in to the measuring tube system 5. The width of the annular slot 41 can be changed by turning the cap 10 on the tubular part 8 and fixed by tightening the grub screw 42. The tube system 4}, which consists of a bundle of rigid, narrow tubes with the same lumen as the tubes of the measuring tube system 5, is inserted into the inner ring 37 of the cap 10. Part of the inspiratory air and the expiratory air flows through this tube system and prevents a significant increase in breathing resistance through the guide body. If this is less important, then, within the scope of the invention, the inner ring 37 can be replaced by a closed disk into which the oasis analysis approach is inserted centrally.

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Claims (5)

Claims [Iy breathing tube for pneumotachograph, consisting of an in The mouthpiece to be inserted into the mouth of the test person, one on the mouthpiece attached, funnel-shaped widening pipe part over a short length, as well as from the part that is attached to the triditer part tubular measuring chamber with a measuring tube system according to Fleisoh with a calming section in the measuring tube at least in front of the measuring section to suppress turbulence in the inspiratory air to be measured, characterized by a directly at the large opening of the funnel-shaped pipe part (2) provided wire screen (23) with a sufficiently high flow resistance to force a flow course along the inner funnel wall as well as through one of the suction side (more inspiratory Entrance) of the measuring chamber (4) at a distance from the measuring tube system (5) closing guide body (8, 10) for the inspiratory air with one in the annular area of the measuring tube of the tube system (5), the space between the measuring tube system (5) and the guide body (8, 10) connecting to the outside air, preferably variable in its width, ring BChlitz 2. Breathing tube according to claim 1, characterized in that the annular slot (41) of the guide body (δ, 10) «in bundles (43) of steep | open narrow tubes with the same lumen as the measuring tube system (5) surrounds to increase the breathing resistance of the breathing tube to be kept small by the guide body (8, 10), 3. Breathing tube according to claim 1 or 2, characterized in that the annular slot (4l) on the one hand by a conical inside « wall (35) of a pipe part pushed onto the measuring chamber (4) (8) and, on the other hand, through a conical outer wall (4o) of an inner ring (37) of a pipe part (8) placed on said pipe part Cap (10) is limited and the cap (10) is adjustable and lockable in the longitudinal direction of the breathing tube. 109838/0556 _Q 4. Breathing tube according to one of claims 1 to 3 # characterized in that the guide body (8, 10) is provided with a connecting piece (11) for a gas analyzer leading into the intermediate space between it and the measuring tube system (5) is. 5. Breathing tube according to one of the preceding claims «characterized in that in the triohterartlg on a short length widening pipe part (2) seen from the mouthpiece (1) in front of the wire sieve (23) an opening (20) is provided in the funnel wall and a storage vessel (3) is detachably attached to the outside of the opening (20). 109838/0556